Energy Efficient Group-Sort QRD Processor with On-line Update for MIMO Channel Pre-processing

Zhang, Chenxin; Prabhu, Hemanth; Liu, Yangxurui; Liu, Liang; Edfors, Ove; Öwall, Viktor

Energy Efficient Group-Sort QRD Processor with On-line Update for MIMO Channel Pre-processing

Mark

Zhang, Chenxin ^LU ; Prabhu, Hemanth ^LU ; Liu, Yangxurui ^LU ; Liu, Liang ^LU

; Edfors, Ove ^LU

and Öwall, Viktor ^LU (2015) In IEEE Transactions on Circuits and Systems Part 1: Regular Papers 62(5). p.1220-1229

Abstract: This paper presents a Sorted QR-Decomposition (SQRD) processor for 3GPP LTE-A system. It achieves energy efficiency by co-optimizing techniques, such as heterogeneous processing, reconfigurable architecture, and dual-supply voltage operation. At algorithm level, a low-complexity hybrid decomposition scheme is adopted, which switches, depending on the energy distribution of spatial channels, between the traditional brute-force SQRD and a proposed group-sort QR update strategy. A reconfigurable vector processor is accordingly developed to support the adaptive processing with high hardware efficiency. Furthermore, on-chip power management technique is also integrated to obtain real-time power-saving by adapting the voltage supply based on the... (More); This paper presents a Sorted QR-Decomposition (SQRD) processor for 3GPP LTE-A system. It achieves energy efficiency by co-optimizing techniques, such as heterogeneous processing, reconfigurable architecture, and dual-supply voltage operation. At algorithm level, a low-complexity hybrid decomposition scheme is adopted, which switches, depending on the energy distribution of spatial channels, between the traditional brute-force SQRD and a proposed group-sort QR update strategy. A reconfigurable vector processor is accordingly developed to support the adaptive processing with high hardware efficiency. Furthermore, on-chip power management technique is also integrated to obtain real-time power-saving by adapting the voltage supply based on the instantaneous workload. As a proof-of-concept, we implemented the processor using a 65nm CMOS technology and conducted post-layout simulation. The proposed SQRD processor occupies 0.71mm2 core area and has a throughput of up to 69MQRD/s. Compared to the brute-force approach, an energy reduction of 10~61.8% is achieved. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/5050000

author

Zhang, Chenxin ^LU ; Prabhu, Hemanth ^LU ; Liu, Yangxurui ^LU ; Liu, Liang ^LU

; Edfors, Ove ^LU

and Öwall, Viktor ^LU

organization

publishing date

2015

type

Contribution to journal

publication status

published

subject

Electrical Engineering, Electronic Engineering, Information Engineering

keywords

QR decomposition, sorting, channel preprocessing, MIMO, reconfigurable processor

in

IEEE Transactions on Circuits and Systems Part 1: Regular Papers

volume

62

issue

5

pages

1220 - 1229

publisher

IEEE - Institute of Electrical and Electronics Engineers Inc.

external identifiers

wos:000353887300002
scopus:85027939515

ISSN

1549-8328

DOI

10.1109/TCSI.2015.2402936

project

EIT_SOS VINNOVA Industrial Excellence Center - System Design on Silicon

language

English

LU publication?

yes

id

369f2da4-a364-4a80-a65d-170e1db3816d (old id 5050000)

date added to LUP

2016-04-01 10:23:36

date last changed

2024-01-06 15:32:55

@article{369f2da4-a364-4a80-a65d-170e1db3816d,
  abstract     = {{This paper presents a Sorted QR-Decomposition (SQRD) processor for 3GPP LTE-A system. It achieves energy efficiency by co-optimizing techniques, such as heterogeneous processing, reconfigurable architecture, and dual-supply voltage operation. At algorithm level, a low-complexity hybrid decomposition scheme is adopted, which switches, depending on the energy distribution of spatial channels, between the traditional brute-force SQRD and a proposed group-sort QR update strategy. A reconfigurable vector processor is accordingly developed to support the adaptive processing with high hardware efficiency. Furthermore, on-chip power management technique is also integrated to obtain real-time power-saving by adapting the voltage supply based on the instantaneous workload. As a proof-of-concept, we implemented the processor using a 65nm CMOS technology and conducted post-layout simulation. The proposed SQRD processor occupies 0.71mm2 core area and has a throughput of up to 69MQRD/s. Compared to the brute-force approach, an energy reduction of 10~61.8% is achieved.}},
  author       = {{Zhang, Chenxin and Prabhu, Hemanth and Liu, Yangxurui and Liu, Liang and Edfors, Ove and Öwall, Viktor}},
  issn         = {{1549-8328}},
  keywords     = {{QR decomposition; sorting; channel preprocessing; MIMO; reconfigurable processor}},
  language     = {{eng}},
  number       = {{5}},
  pages        = {{1220--1229}},
  publisher    = {{IEEE - Institute of Electrical and Electronics Engineers Inc.}},
  series       = {{IEEE Transactions on Circuits and Systems Part 1: Regular Papers}},
  title        = {{Energy Efficient Group-Sort QRD Processor with On-line Update for MIMO Channel Pre-processing}},
  url          = {{https://lup.lub.lu.se/search/files/1805685/5469508.pdf}},
  doi          = {{10.1109/TCSI.2015.2402936}},
  volume       = {{62}},
  year         = {{2015}},
}

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Energy Efficient Group-Sort QRD Processor with On-line Update for MIMO Channel Pre-processing